Although REEL has designed and manufactured cranes of all sizes and purpose, the order for a double 750-tonne lifting system was a first. "Until now, a standard order was in the 160- to 180-tonne range," explains Benoit Nakul, who oversees 澳门六合彩高手 fabrication for REEL. "But whatever the lifting capacity the architecture is basically the same. It's a matter of calculating how to spread the load."
The first challenge when designing a crane capable of lifting such heavy loads is to keep the deadweight of the crane itself as low as possible. "This is paramount to reduce the forces that are exerted on the building structure in normal operating conditions and to mitigate the consequences in case of a seismic event," explains Nakul.
In Villefranche-sur-Sa?ne REEL handled the manufacturing of the four 375-tonne trolleys. But due to limited lifting capacity at that site, the fabrication of the four girders was subcontracted to the Spanish industrial group Asturfeito, already involved in several fusion contracts.
However sturdy and powerful, a girder is a hollow structure—a skeleton made of steel plates welded together and reinforced by frames, ribs, spacers and stiffeners, whose size and position are determined by sophisticated load calculations.
Once a precise mapping of the loads has been achieved and a 3D model finalized, girder fabrication can begin which is a challenge in itself. "We're dealing with structures that are almost 50 metres long, with tolerances in the millimetre range. Welding is a particularly delicate operation as the heat/energy loads involved can cause irreversible deformations, and we need to butt-weld 12-metre-long, 60-millimetre-thick steel plates and still achieve perfect planarity..."